Optimal white-noise stochastic forcing for linear models of turbulent channel flow
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Publication:5888982
DOI10.1017/JFM.2023.234OpenAlexW4366826357MaRDI QIDQ5888982
Myoungkyu Lee, Unnamed Author, Yongyun Hwang
Publication date: 26 April 2023
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2023.234
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Cites Work
- The lift-up effect: the linear mechanism behind transition and turbulence in shear flows
- Stability and transition in shear flows
- Model-based scaling of the streamwise energy density in high-Reynolds-number turbulent channels
- Self-sustaining process of minimal attached eddies in turbulent channel flow
- A critical-layer framework for turbulent pipe flow
- Predictive Model for Wall-Bounded Turbulent Flow
- Linear non-normal energy amplification of harmonic and stochastic forcing in the turbulent channel flow
- Evidence of very long meandering features in the logarithmic region of turbulent boundary layers
- The local structure of turbulence in incompressible viscous fluid for very large Reynolds numbers
- On the mechanism of wall turbulence
- A theoretical and experimental study of wall turbulence
- A note on an algebraic instability of inviscid parallel shear flows
- Stability of linear flow
- Optimal excitation of three-dimensional perturbations in viscous constant shear flow
- Stochastic forcing of the linearized Navier–Stokes equations
- Coherent structure generation in near-wall turbulence
- Coherent structures near the wall in a turbulent channel flow
- Turbulent Flows
- Spectral proper orthogonal decomposition and its relationship to dynamic mode decomposition and resolvent analysis
- Spectral analysis of the budget equation in turbulent channel flows at high Reynolds number
- Scale interactions and spectral energy transfer in turbulent channel flow
- Regeneration mechanisms of near-wall turbulence structures
- Optimal eddy viscosity for resolvent-based models of coherent structures in turbulent jets
- The structure of turbulent boundary layers
- Forcing statistics in resolvent analysis: application in minimal turbulent Couette flow
- Self-similar mechanisms in wall turbulence studied using resolvent analysis
- Attached eddy model revisited using a minimal quasi-linear approximation
- Momentum transfer by linearised eddies in turbulent channel flows
- The mean logarithm emerges with self-similar energy balance
- The colour of forcing statistics in resolvent analyses of turbulent channel flows
- Linear-model-based estimation in wall turbulence: improved stochastic forcing and eddy viscosity terms
- Resolvent-based estimation of space–time flow statistics
- Estimating large-scale structures in wall turbulence using linear models
- Streak instability in turbulent channel flow: the seeding mechanism of large-scale motions
- Coherent large-scale structures from the linearized Navier–Stokes equations
- Self-sustained processes in the logarithmic layer of turbulent channel flows
- State estimation in wall-bounded flow systems. Part 2. Turbulent flows
- A note on optimal transient growth in turbulent channel flows
- Componentwise energy amplification in channel flows
- State estimation in wall-bounded flow systems. Part 1. Perturbed laminar flows
- Colour of turbulence
- Attached Eddy Model of Wall Turbulence
- On the relevance of Reynolds stresses in resolvent analyses of turbulent wall-bounded flows
- Near-wall turbulent fluctuations in the absence of wide outer motions
- Linear energy amplification in turbulent channels
- Energy transfer in turbulent channel flows and implications for resolvent modelling
- Minimal multi-scale dynamics of near-wall turbulence
- From Bypass Transition to Flow Control and Data-Driven Turbulence Modeling: An Input–Output Viewpoint
- Active and inactive components of the streamwise velocity in wall-bounded turbulence
- Cause-and-effect of linear mechanisms sustaining wall turbulence
- Model-based spectral coherence analysis
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